NASA’s New Horizons probe, racing toward a 1 January flyby of the Kuiper Belt body known as Ultima Thule, has given scientists their first major surprise: the oblong, or binary body shows no signs of a discernible light curve suggesting rotation.

NASA’s New Horizons spacecraft has finally caught sight of its post-Pluto target, a Kuiper Belt body nicknamed Ultima Thule. If all goes well, New Horizons will make a close flyby of the distant body on 1 January.

Three years after the New Horizons spacecraft raced past Pluto and its large moon Charon, mission scientists have released the most accurate colour views yet, showing the distant worlds as they would appear to an astronaut’s eyes.

Pluto is thought to possess a subsurface ocean, which is not so much a sign of water as it is a tremendous clue that other dwarf planets in deep space also may contain similarly exotic oceans, naturally leading to the question of life, said one co-investigator with NASA’s New Horizon.

Following its historic first-ever flyby of Pluto, NASA’s New Horizons mission has received the green light to fly onward to an object deeper in the Kuiper Belt, known as 2014 MU69. The spacecraft’s planned rendezvous with the ancient object — considered one of the early building blocks of the solar system — is 1 January 2019.

NASA’s New Horizons spacecraft spied extensional faults on Pluto, a sign that the dwarf planet has undergone a global expansion possibly due to the slow freezing of a sub-surface ocean. A new analysis by Brown University scientists bolsters that idea, and suggests that ocean is likely still there today.